Two transmembrane aspartates in presenilin-1 required for presenilin endoproteolysis and γ-secretase activity

MS Wolfe, W Xia, BL Ostaszewski, TS Diehl… - Nature, 1999 - nature.com
MS Wolfe, W Xia, BL Ostaszewski, TS Diehl, WT Kimberly, DJ Selkoe
Nature, 1999nature.com
Accumulation of the amyloid-β protein (Aβ) in the cerebral cortex is an early and invariant
event in the pathogenesis of Alzheimer's disease. The final step in the generation of Aβ from
the β-amyloid precursor protein is an apparently intramembranous proteolysis by the elusive
γ-secretase (s). The most common cause of familial Alzheimer's disease is mutation of the
genes encoding presenilins 1 and 2, which alters γ-secretase activity to increase the
production of the highly amyloidogenic Aβ42 isoform. Moreover, deletion of presenilin-1 in …
Abstract
Accumulation of the amyloid-β protein (Aβ) in the cerebral cortex is an early and invariant event in the pathogenesis of Alzheimer's disease. The final step in the generation of Aβ from the β-amyloid precursor protein is an apparently intramembranous proteolysis by the elusive γ-secretase(s). The most common cause of familial Alzheimer's disease is mutation of the genes encoding presenilins 1 and 2, which alters γ-secretase activity to increase the production of the highly amyloidogenic Aβ42 isoform. Moreover, deletion of presenilin-1 in mice greatly reduces γ-secretase activity, indicating that presenilin-1 mediates most of this proteolytic event. Here we report that mutation of either of two conserved transmembrane (TM) aspartate residues in presenilin-1, Asp 257 (in TM6) and Asp 385 (in TM7), substantially reduces Aβ production and increases the amounts of the carboxy-terminal fragments of β-amyloid precursor protein that are the substrates of γ-secretase. We observed these effects in three different cell lines as well as in cell-free microsomes. Either of the Asp → Ala mutations also prevented the normal endoproteolysis of presenilin-1 in the TM6 → TM7 cytoplasmic loop. In a functional presenilin-1 variant (carrying a deletion in exon 9) that is associated with familial Alzheimer's disease and which does not require this cleavage, the Asp 385 → Ala mutation still inhibited γ-secretase activity. Our results indicate that the two transmembrane aspartate residues are critical for both presenilin-1 endoproteolysis and γ-secretase activity, and suggest that presenilin 1 is either a unique diaspartyl cofactor for γ-secretase or is itself γ-secretase, an autoactivated intramembranous aspartyl protease.
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